Chenhui Yuan, Jinhong Jiang, Xinyu Zhang, Lin Gu, Xueping Wang, Lei Shao
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引用次数: 0
摘要
生物体内存在各种各向异性的组织结构,包括肌肉组织、皮肤组织和神经组织。在体外复制各向异性组织结构是一项重大挑战。由于三维打印技术在制造原理上的优势,它通常被用于制造仿生物结构。然而,自由形态各向异性生物活性结构的直接三维打印尚未见报道。为了应对这一挑战,我们开发了一种三元 F/G/P 油墨系统,该系统集成了 Pluronic F127(F)的可打印性、GelMA(G)的强大生物活性和光交联特性以及高分子量 PEG(P)的剪切诱导配位功能。通过这种战略性的三元系统组合,可直接 3D 打印出自由形态的各向异性组织结构。此外,这些各向异性结构还具有出色的生物活性,并能促进不同细胞的定向生长。这一进步为人体各向异性组织的修复和替代带来了希望。
Direct 3D printing of freeform anisotropic bioactive structure based on shear-oriented ink system.
Various anisotropic tissue structures exist in organisms, including muscle tissue, skin tissue, and nerve tissue. Replicating anisotropic tissue structuresin vitrohas posed a significant challenge. Three-dimensional (3D) printing technology is often used to fabricate biomimetic structures due to its advantages in manufacturing principle. However, direct 3D printing of freeform anisotropic bioactive structures has not been reported. To tackle this challenge, we developed a ternary F/G/P ink system that integrates the printability of Pluronic F127 (F), the robust bioactivity and photocrosslinking properties of gelatin methacryloyl (G), and the shear-induced alignment functionality of high-molecular-weight polyethylene glycol (P). And through this strategic ternary system combination, freeform anisotropic tissue structures can be 3D printed directly. Moreover, these anisotropic structures exhibit excellent bioactivity, and promote orientational growth of different cells. This advancement holds promise for the repair and replacement of anisotropic tissues within the human body.
期刊介绍:
Biofabrication is dedicated to advancing cutting-edge research on the utilization of cells, proteins, biological materials, and biomaterials as fundamental components for the construction of biological systems and/or therapeutic products. Additionally, it proudly serves as the official journal of the International Society for Biofabrication (ISBF).
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